High-frequency performance of scaled carbon nanotube array field-effect transistors

We report the radio-frequency performance of carbon nanotube array transistors that have been realized through the aligned assembly of highly separated, semiconducting carbon nanotubes on a fully scalable device platform. At a gate length of 100 nm, we observe output current saturation and obtain as...

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Veröffentlicht in:	Applied physics letters 2012-07, Vol.101 (5), p.53123
Hauptverfasser:	Steiner, Mathias, Engel, Michael, Lin, Yu-Ming, Wu, Yanqing, Jenkins, Keith, Farmer, Damon B., Humes, Jefford J., Yoder, Nathan L., Seo, Jung-Woo T., Green, Alexander A., Hersam, Mark C., Krupke, Ralph, Avouris, Phaedon
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Sprache:	eng
Schlagworte:	Arrays Carbon nanotubes Cut-off Electronics Gain Power gain Semiconductor devices Transistors
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container_issue	5
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container_title	Applied physics letters
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creator	Steiner, Mathias Engel, Michael Lin, Yu-Ming Wu, Yanqing Jenkins, Keith Farmer, Damon B. Humes, Jefford J. Yoder, Nathan L. Seo, Jung-Woo T. Green, Alexander A. Hersam, Mark C. Krupke, Ralph Avouris, Phaedon
description	We report the radio-frequency performance of carbon nanotube array transistors that have been realized through the aligned assembly of highly separated, semiconducting carbon nanotubes on a fully scalable device platform. At a gate length of 100 nm, we observe output current saturation and obtain as-measured, extrinsic current gain and power gain cut-off frequencies, respectively, of 7 GHz and 15 GHz. While the extrinsic current gain is comparable to the state-of-the-art, the extrinsic power gain is improved. The de-embedded, intrinsic current gain and power gain cut-off frequencies of 153 GHz and 30 GHz are the highest values experimentally achieved to date. We analyze the consistency of DC and AC performance parameters and discuss the requirements for future applications of carbon nanotube array transistors in high-frequency electronics.
doi_str_mv	10.1063/1.4742325
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source	AIP Digital Archive; Alma/SFX Local Collection; AIP Journals (American Institute of Physics)
subjects	Arrays Carbon nanotubes Cut-off Electronics Gain Power gain Semiconductor devices Transistors
title	High-frequency performance of scaled carbon nanotube array field-effect transistors
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